How would you classify this mammal?

Obviously it is a camel, but is there more to it than that? There are 17 orders of placental mammals. But then these mammals need to be further classified into families, genera, and finally species.

Classification of Placental Mammals

Traditional classifications of mammals are based on similarities in structure and function. Increasingly, mammals are being classified on the basis of molecular similarities. DNA analyses has recently shown that the traditional orders include mammals that may not be closely related.

Traditional Classification

The most widely accepted traditional classification of mammals divides living placental mammals into 17 orders. These orders are shown in Tablebelow. This classification of mammals was widely accepted for more than 50 years. Placental mammals are still commonly placed in these orders. However, this classification is not very useful for studies of mammalian evolution. That’s because it groups together some mammals that do not seem to be closely related by descent from a recent common ancestor.

Order

Example

Sample Trait

Insectivora

mole

small sharp teeth

Edentata

anteater

few or no teeth

Pholidota

pangolin

large plate-like scales

Chiroptera

bat

digits support membranous wings

Carnivora

coyote

long pointed canine teeth

Rodentia

mouse

incisor teeth grow continuously

Lagomorpha

rabbit

chisel-like incisor teeth

Perissodactyla

horse

odd-toed hooves

Artiodactyla

deer

even-toed hooves

Cetacea

whale

paddle-like forelimbs

Primates

monkey

five digits on hands and feet

Proboscidea

elephant

tusks

Hyracoidea

hyrax

rubbery pads on feet

Dermoptera

colugo

membrane of skin between legs for gliding

Pinnipedia

seal

feet with fins

Sirenia

manatee

paddle-like tail

Tubulidentata

aardvark

teeth without enamel

Phylogenetic Classification

The mammalian supertree classifies placental mammals phylogenetically. It uses the analysis of DNA sequences to group together mammals that are evolutionarily closely related, sharing a recent common ancestor. These groups are not necessarily the same as the traditional groups based on structure and function.

The supertree classification places placental mammals in four superorders. The four superorders and some of the mammals in them are:

All four superorders appear to have become distinct from one another between 85 and 105 million years ago. The exact relationships among the superorders are still not clear. Revisions in this classification of mammals may occur as new data become available.

Summary

Mammals used to be classified on the basis of similarities in structure and function into 17 different orders.

Recently, DNA analyses have shown that the traditional orders include mammals that are not closely related.

Phylogenetic classification, based on DNA data, groups placental mammals in four superorders. The superorders appear to have become distinct from each other 85–105 million years ago.

Review

Compare traditional and phylogenetic classifications of placental mammals. Explain which type of classification is more useful for understanding how mammals evolved.

Assume that a new species of placental mammal has been discovered. Scientists have examined it closely and studied its DNA. It has wings similar to a bat that it uses for gliding. Its DNA is most similar to the DNA of rodents such as mice. How would you classify the new mammal? Explain your answer.